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Altair Kit Serial #33 has landed in Australia. It arrived yesterday. Silly FedEx - my phone numbers were on the label, yet they could not contact me until Friday last week, after holding the package for duty since Monday last.

All is well that ends well. Couple of observations regarding the packing lists.

Overall - excellent quality kit and manual. Not too worried about the screws, I can get those locally.

This is my Christmas present - so no working on it until the 25th! I plan to try and follow MITS assembly steps and refer to Grant's photo illustrated manual. It certainly captures the essence and flavor of 70's computing!

The 10 M3 counter sink screws were replaced by pan head screws. The packing list must not have been updated.

It does look like one of the parts on the BOM was written wrong. The 22p capacitor should have been listed as 220J, not 221J.

100J is the correct way to specify 10pf. They must have not had space to write all of the zeros. The capacitor code is two significant digits followed by the number of zeros.

You have gone through all of the screws 6-32s? Those are the ones that hold the motherboard down. I checked everything off the list as I packed the parts. I don't know how I could have missed those parts on yours. I'll check with the other people who have received theirs to make sure they have them. Those screws should fit in an envelope, so if anyone is missing them please let me know!

Thanks for the comments. I'll update the text on the diodes and capacitor to make it easier to understand.

All good, yep those axial caps are really small and the manufacturer did not bother printing the multiplier (0). I checked a couple of websites (ask Prof. Google!) and 22J is also ok for 22p, but yes they should be marked 220J. No problem!

Will recheck the screws tonight - There were screws in a bag attached to the outside of the motherboard envelope.

I plan to try and follow MITS assembly steps and refer to Grant's photo illustrated manual.

One quick observation: when Grant's instructions disagree with MITS's, make sure you give precedence to Grant's. I just wasted a day tracking down why my CPU wasn't working right and the problem turned out to be that I forgot to follow Grant's suggestion on P12 to replace R42 with a 4.3k instead of MITS's 6.2k.

Yes it has been fun so far. 800 pins were soldered on the motherboard yesterday. I got the 18 slot with 8 slots supplied. It is a beauty!

Today, I worked on the D/C board - just partway through fitting the LEDs into the front panel. Every LED was tested before installing. I think I checked C7 and C8 5 times to make sure they were the right values!

I am definitely cross checking everything against Grants manual! It helps a lot. I like the way that Grant has preserved the board down to the mistake 'C' mark for SC13.

Finished my Altair 8800 yesterday! Hurray! It would not run when first powered up, examine did not work, reset caused machine to free run. So I suspected there was a problem with D/C to Motherboard wiring.

Turned the unit over and there was the culprit! Solder bridge between two motherboard pins!

All good now. Got the 1024K board in and memory tested.

Here's some fun behavior for the 8080. I use the HLT instruction in simulation to stop the sim and let me know that the code is finished. Ha! Doing it on a real 8080 causes the cpu to enter an 'undefined' state. Stumped me for a while.

From the manual:- "Operation: Implementation of the HLT instruction steps the PC to the next instruction address and stops the computer until an interrupt occurs. The HLT instruction should not normally be implemented when a DI instruction has been executed. Since the DI instruction causes the computer to ignore interrupts, the computer will not operate again until the main power switch is turned off and then back on."

The default power up state is interrupts disabled. (INTE LED is OFF), so the HLT really freezes the computer - But in the Arrowhead Tips section (page 5) it says, "To reset the computer you have to hold the stop switch raised while raising the reset switch. Release the reset switch first. (No, we don't know why, but it's traditional!)"

I guess it is a quirk of the D/C design and the 8080 CPU (Looks like assert PRDY and toggle PRESET causes the CPU to resume normal operation?)

Anyways - heaps of fun just mucking around with some of the basic instructions. Tried reading the sense switches with IN A,377 and then storing the data somewhere. Works really well. Good thing the jumper was added to 'read' the sense switches!

Moving on to the 88-4MCS and 2SIO using only original MITS documentation.